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WorldWide Telescope Planetarium
Note: This documentation is preliminary and subject to change.
This document describes how to build a planetarium for use with WorldWide Telescope.
The planetarium provides schools and other groups with a great way to visualize the panoramic view
of the universe provided by WorldWide Telescope.
The planetarium described here is just under 12.5 feet in diameter, and just over 9 feet tall. So the
first step is finding a suitable location for it! The materials used are not suitable for an outside
location, so the location should be inside, level and dry. Alternative measurements are given for a
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smaller (9 feet diameter) planetarium, though all the images in this document are for the 12.5 feet
model. Measurements are given in inches as this is the most used unit for packing materials and
particleboard, which are the main construction materials used - 48 inch wide corrugated cardboard,
and 48 inch wide particleboard paneling are both easy to come by. TheDome Specification Utilitycan
be used if metric measurements are preferred.
One of the most interesting features of the dome is that it is tilted at an angle of 20 degrees. This
makes construction a little more complex, but the design gives a much better experience. The idea is
that students will feel they are traveling in a space ship towards a planet such as Saturn, which would
not be the case if the view was vertical. The tilt also gives room for a reasonable pair of doors, and
room for the projector and mirror, without excessive height. The cost to this though is that
constructing the dome support is as involved as constructing the dome (a geodesic half-dome to be
precise) itself.
Costs for materials vary, however a reasonable budget for the dome and support components is US
$700.00 at 2009 prices. In addition to this a spherical mirror is required, optionally a flat secondary
mirror, and a suitable projector. Tools are not included in our budgeting, as they are common
household tools that many teachers and parents will own already. A laptop running WorldWide
Telescope is obviously not included in the budgeting either.
Note that a number of the tasks involve the use of cutting tools and power saws, so responsible adult
involvement in the project is essential.
Table of Contents1. Construction of the Dome Support
o To Construct a Smaller Dome Supporto The Dome Specification Utility
2. Construction of the Domeo To Construct a Smaller Dome
3. Adding Ventilation and Power4. Adding Seating and Carpeting5. Setting up the Projector and Mirrors
o High Quality Mirrors6. Run WorldWide Telescope
See Also
Dome Specification utility WorldWide Telescope Authoring WorldWide Telescope User Guide
1. Construction of the Dome Support
Construction of the dome, and the dome support can largely proceed in parallel. To construct the
dome support, go through the following procedure:
1. Purchase the necessary materials:o 5 sheets of particleboard, or plywood, 96 inches by 48 inches.o 17 feet of 2 x 3 inch wood.o 20 feet of 2 x 2 inch wood.o 120 wood screws (1 or 1.25 inch).
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o 20 heavy duty clips to attach the dome to the support.o 10 lengths of 1 x 1.5 inch wood, each piece exactly 48 inches long.o Two hinges and one handle per door.o Black 2 inch wide tape.
2. Assemble the necessary tools:o Miter saw, or compound miter saw.o Portable circular saw.o Hand saw.o Safety goggles and masks.o Sandpaper.o Drill.o Matt black paint.o Chalk line, or long measuring rulers.o Other tools may be helpful: files, screwdrivers, planes, clamps, saw horses,and so on.
3. Understand the shapes involved. Both the dome and dome support are based on adecagon - 10 sided figure - shown in the following diagram:
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4. Cut out, or have cut out for you, the 10 side panels in 0.5 inch particleboard orplywood. The 10 panels are:
o 1 at 48 inch by 12 inch rectangle.o 2 at 47 inch base, with one side at 12 inches and one at 21 5/8 inches.o 2 at 45 3/8 inch base, with one side at 21 5/8 inches and one at 37 1/4inches.
o 2 at 45 3/8 inch base, with one side at 37 1/4 inches and one at 52 7/8inches.
o 2 at 47 inch base, with one side at 52 7/8 and one at 62 1/2 inches.o 1 at 48 inch by 62 1/2 inch rectangle.
5. Lightly sand and smooth the edges of the wood.6. Cut out 20 wooden connecting blocks for the panels, from 2 x 3 (or similar) wood.Because of the tilt, the blocks are not all exactly the same size. The thickness of the wood
is not that important - it is the angles that are critical. The more accurate you can cut the
angles the less adjustment will be necessary when the dome support is matched to the
dome. Most miter saws will not cut at such an acute angle as 17 degrees, so first make a
template block with a cut at 73 degrees using a miter saw, then to cut the 17 degree angle
clamp the template block in place, carefully place the actual block, and then a 90 degree
cut will give the desired result. Note that the two cuts on each block need not meet at an
exact point, though they can. A short flat section between the two angled cuts is not a
problem. With a simple 10 inch miter saw block widths should be chosen that the saw can
cut right through - which limits the thickness to 2.5 inches or so. A compound miter saw
will give greater flexibility.
Before starting on the angled cuts, cut the 2 x 3 wood into 10 inch lengths (20 are
needed).
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7. Take one of the panels marked "Door" in the preceding images. Cut out a rectangulardoor shape, and fit hinges and a handle on the outside. The door will open to the outside,
so there is no need for a handle on the inside.
It is a good idea to take quarter of an inch off the bottom of the doors before fitting them, to
avoid scraping the floor when opening and closing. In this case ensure there is the supporting
2 x 2 wood across the bottom of the doorway (to block out the light) shown in the images
below.
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The door height will be more suitab
If a larger door is required conside
of all the side panels.
In order to have a full size door the
the lower side of the dome support
a 6 foot door the lower side will ne
further 2 feet to the height of the p
Add a second door to the other sid
an "In" and an "Out", and a fire es
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Note the 2 x 2 inch wood used to s
containing the hinges, and across t
scraps of wood to strengthen the h
For a rectangular door, consider us
most of the door, but use a hand s
door shown in the picture, use a ha
carefully drawing the arc on the pa
The rectangular door shown in som
height restrictions in the assembly
reason why the rounded door was
more headroom.
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8. Using short screws (1.5 inch wood screws, or similar) assemble the dome support byscrewing one block low down on each panel, and one near but not at the top (at least 1
inch short of the top of the shortest of the two panels). Pilot holes for the screws should be
drilled first, and the screws drilled into place but not tightened to the max until the whole
support is in place.Start by laying out all the pieces in place - panels and blocks - flat on the floor.
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9. On the outside of the top edge of each panel screw in a length of 1x1.5 inch wood (orsimilar) that is exactly 48 inches long. This should create a ledge all the way round the
outside of the dome support. Accurately align the ledge with the top of the panels, but
more importantly with the preceding ledges, so that the supporting surface for the dome
does not change height from the end of one side panel to the start of the next. Start at thetall rectangular panel, and using 3 screws per ledge, carefully work your way around the
dome support.
10. Using a 2 inch diameter hole drilling bit (or similar) - drill out a grid of 3 x 4 or 4 x 4holes to be used to vent the planetarium.
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A smal
suppor
11. Clean the dome support area of all sawdust, screws, and any left over pieces of wood.12. Paint the inside of the dome support a flat matt black.
Matt black is used so that as little light as possible is reflected by the dome support structure.
13. Paint the outside of the dome any color you like.
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14. Seal all the gaps on the outside. No light should get in through the joints between thepanels, nor around the sides of the door. Use a thick tape to seal the joints. The door is
more complicated, consider attaching a black felt curtain on the inside to block out any
light.
See Also
WorldWide Telescope Planetarium
To Construct a Smaller Dome Support
To construct a dome support using 36 inch, rather than 48 inch, sides, use the following table of
measurements for the panel sizes. This will create a dome support for a dome that is just over 9 feet
in diameter. The dome support will have a side to side diameter of 116.5 inches (about 9.5 feet) and a
front to back diameter of 104.1 inches. Obviously use 36 inch long ledge sections, but the blocks that
fit the dome support together have exactly the same angles as for the 48 inch sided dome support.
Note that the door for entry will now be quite short, so consider adding 12 inches to the height of all
the panels, if your location has the headroom!
Number Sizes
1 36 inch x 12 inch rectangle.
2 35 1/4 inch base, one side 12 inches, other side is 19 1/4 inches.
2 34 inch base, one side is 19 1/4 inches, other side is 30 15/16 inches.
2 34 inch base, one side is 30 15/16 inches, other side is 42 11/16 inches.
2 35.26 inch base, one side is 42 11/16 inches, other side is 49 7/8 inches.
1 36 inch x 49 7/8 inch rectangle.
See Also
Construction of the Dome Support The Dome Specification Utility WorldWide Telescope Planetarium
The Dome Specification Utility
Click on the link below to run a utility program that will calculate the triangle and panel sizes required,
given three inputs:
1. The length of the sides of the equilateral triangles (triangle A).2. The height of the shortest panel in the dome support.3. The tilt angle in degrees. Though 20 degrees is recommended, other angles can beused, and the software can be configured to match.
Note that the utility requires scripts to be run, so if you get a security warning, be sure
to Allow Blocked Content. Note also that angles do notchange with the size of the dome.
http://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#ConstructionoftheDomeSupporthttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#ConstructionoftheDomeSupporthttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#TheDomeSpecificationUtilityhttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#TheDomeSpecificationUtilityhttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#TheDomeSpecificationUtilityhttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#ConstructionoftheDomeSupporthttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuide -
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Dome Specification utility
See Also
Construction of the Dome Construction of the Dome Support WorldWide Telescope Planetarium
2. Construction of the Dome
To construct the dome, go through the following procedure:
1. Purchase the necessary materials:o 40 sheets of corrugated cardboard, ideally with one side already white, 48 x48 inches. Purchase an extra one or two if mistakes might be made. Alternatively
slightly fewer sheets are needed with 48 x 96 inch cardboard sheets (as three of
the smaller triangles can be cut per sheet) but there is a transport issue withsheets of this size! So either buy 40 48 x 48 inch sheets, or 15 48 x 96 inch
sheets, plus a few extra as spares.
o 165 large (2 or more inch wide) paper binder clips. This provides three clipsper joint.
o Black paper sheets totaling 48 inches long by 110 inches wide.o Matt flat grey (not white) paint.
2. Acquire the necessary tools:o Sharp knife.o Long metal edged scale.o Sharp point, string, and pencil.o Paint brushes, cleaning materials, newspaper.
3.
Very carefully draw out and then cut out the template triangles. Two sizes of triangleare necessary, labeled as A and B in the following diagrams:
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Use the full width of the 48 inch sheets.
To draw the triangle you can use a sharp point with a string 48 inches long, and draw two arcs.
triangle. Alternatively calculate the height of the triangle (41.57 inches) - measure this along bo
line from one side to the other, and mark the center - 24 inches along the line.
After cutting out the template, 10 triangles of type A are needed.
Note that the triangle is 48 inches on all sides, and that the flaps are in addition to this. This is p
inches wide by having the tapered flaps shown at the corners.
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After cutting out the template, 30 triangles of type B are needed. This will require 30 48 x 48 inc
three triangles can be cut from the larger sheet.
13/16ths is a good approximation for .82 inch. The height of the triangle is 34.25 inches.
Note that the triangle is 48 inches on one side, and 41.82 on the other two sides, and that the fl
4. When each triangle is cut out label the outside (not the white side if white-sidedcardboard is used), with the letters A or B.
5. Mark the lines where the flaps need to be folded with a pencil, then use a dull pointlike a ball-point pen to score the cardboard without cutting it to much. Practice on some
scraps to gain some expertise first. Score the cardboard triangles accurately and fold the
flaps out.
6. Double check you have the correct quantities: 10 of triangle A, 30 of triangle B, notincluding the two template triangles (which should be stored separately and notpainted -in case you need to redo one or more triangles).
7. At this stage the inside of the triangles should be painted a flat matt latex grey. Ifwhite cardboard is used this should not take more than one coat of paint. Make sure that
the painting is done in a ventilated area, and appropriate breathing masks are used. Brown
cardboard may take a second coat of paint. Although the temptation is to use a pure white
paint, this will reflect too much of the projection. A flat, light grey should give the best
results. It is not necessary to paint the flaps completely, but paint over the edges of the
triangles and into the flap area to ensure good coverage.
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Painting is
level surfa
8. After the cardboard is painted it may bow to varying degrees. When the paint is dryconsider stacking the triangles, perhaps with half facing the opposite direction, with a
weight carefully placed on top to help counteract the bowing effect of the paint. In any
case when the flaps are turned out this will tend to flatten out the triangles again
considerably, so the bowing is not the serious issue that it might first look.
9. Optional step
. Make black shades to block out light along the edges of the pentagon.There are 55 sides internal to the dome, and 10 sides around the base. The 55 internal
edges are a mix of 48 and 41.8 inches. Cut out strips of black paper long enough that two
overlapping pieces will cover the whole edge. Obviously shorter pieces can be used for the
41.8 inch sides. The internal strips should be 2.25 inches wide (assuming cardboard that is
one eighth of an inch wide), with a fold at 1 and 1.25 inches along their full length. If the
cardboard you have used is not one eighth of an inch wide, then the thickness of the
square folds should simply be twice the thickness of the cardboard. The folds need to be
very straight for the shades to fit neatly onto the edges. If a single fold is used the shades
will tend to keep the binder clips out from the join, which weakens the structure and is
prone to error. The reason why this step is optional is that to get straight folded edges can
require paper folding equipment that might not be readily available. The images show a
folding machine and the completed shades. For the external 10 sides around the base, the
paper strips should be 3 inches wide, folded at 1 and 2 inches along the entire length of
the strip.
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A paper folding machine is the best approach to getting very straight folds.
If such a folding machine is not available, try other long straight edges such as a metal ruler.
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First mark a sheet of black paper where it needs to be cut and folded. Then fold the sheet twice Then cut out the strip. Repeat until every edge has two shades.
The image shows a quarter inch fold for the triangles, and a one inch fold for the base.
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A pentagon with shades attached.
10. Time to get out those paper clips. Start with all the triangle Bs. These are used tomake the pentagons. Very carefully align the shorter edges of the B triangles, place one or
more of the black shades along each joint, and clip together a pentagon. Note that joining
the last side will lift the center of the pentagon about 9 inches. Ensure there is enough
space around so that these pentagons are not stepped on.
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The outside edges of the
inch sides.
The 30 triangle Bs shoul
11. With a lot of labor assistance (a minimum of five people works well), assemble thedome in the order shown in the following diagram:
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Note that the central polygon is the very last piece to be assembled. The dome will be quite flop
are helpful at this stage.
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When building the dome try to align the points and edges as accurately as possible before proce
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The critical stage in assembly is having enough hands inside the dome to complete all but the to
Because of the difficulty in clipping in the top pentagon, consider having someone stand on a ste
person, whilst the first leans over the dome and clips in the five last sides. The people on the ins
pentagon, and all the sides - at the same time.
Only when the last top pentagon is clipped into place does the dome become self-supporting.
12. Admire your work! The dome should now be reasonably rigid.13. Ensure all the flaps of the lower edge are bent out, and carefully lift the dome ontothe support - with each of the 10 corners supported by an assistant (hence the need for a
minimum of five people). Do not lift the dome at any time other that at its corners.
Obviously the corners and 48 inch edges of the dome should match the ledges of the dome
support exactly.
14. Use the 20 heavy duty clips to attach the dome to the support, two clips per side.
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The height of the dome when it is on the floor and before it is tilted is just under 6.5 feet. After
feet. Add to this the height of the center of the dome support (just over 3 feet), and the height o
feet.
15. Open up a door and go inside!
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See Also WorldWide Telescope Planetarium
To Construct a Smaller Dome
To construct a dome to fit the 36 inch side dome support, triangle A should be an equilateral triangle
with 36 inch sides. Triangle B should be an isosceles triangle with a 36 inch base and two sides of 31
3/8 inches.
The height of a planetarium of this size is around 7 feet. The following images shows the relative sizes
of the domes.
http://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuide -
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48 inch triangle planetarium 36 inch triangle planetarium
See Also
Construction of the Dome The Dome Specification Utility WorldWide Telescope Planetarium
3. Adding Ventilation and Power
Adding ventilation to the planetarium will make the experience more pleasant for most people. Electric
power will be needed to power the external fan, and also obviously to power the internal projector.
1. Purchase or acquire a small extractor fan (the fan must be capable of going intoreverse - to extract the air - rather than just blow warm air).
2. Using black foam-board, or a similar material, construct a box as shown in the imagebelow.
Pics of fan and box
3. Power up the fan and check that the ventilation system works.4. Run a black power cable (25, 30 or even 50 feet) through one of the ventilation grillholes and up and over one of the doors so that the power outlets are available to the
projector that will be sitting on a shelf between the two doors. Consider using safety hooks
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(cup hooks that close with a spring), or similar small hooks, to guide the power cable.
Ensure that it does not cross the floor at any stage inside the dome support, where it could
be tripped on., and follows a safe path to the power outlet outside of the planetarium. If
the power cable or hooks are not black, then consider painting the hooks and covering the
cable inside the planetarium with black tape.
The cable in this image has been left red to show its course. Covering the cable with black tap
reflectivity.
See Also
WorldWide Telescope Planetarium
4. Adding Seating and Carpeting
Ideally the viewers inside the planetarium will be seated entirely below the base line of the dome -
this is to ensure that no part of them blocks the reflection from the mirror onto the dome surface. In
practice this may be difficult to achieve, especially if height was an issue during construction. The
suggested layout is to lay black carpet tiles across most of the floor of the planetarium, with perhaps a
few seats set at the back near the projector. Shorter viewers sit at the front and middle of the
planetarium, on the carpet, taller viewers can use the seats at the back. The exact layout depends onthe number of viewers you plan to accommodate at any one time - all carpeting and no seats, or all
seats and no carpeting, are obviously options too.
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The seats, similar to all items under the dome, should be as matt black as possible.
See Also
WorldWide Telescope Planetarium
5. Setting up the Projector and Mirrors1. The mirror needs to be a half-dome spherical mirror as shown in the image below.
The cheapest of these are often made of plastic for use as safety mirrors in parking garages
for example, and if so are not very expensive, but do refer to the note on High Quality
Mirrors.
http://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#highqualitymirrorshttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#highqualitymirrorshttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#highqualitymirrorshttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#highqualitymirrorshttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#highqualitymirrorshttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#highqualitymirrorshttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuide -
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Experimenting with different sizes of spherical mirror. The smaller, approximately 9 inch radius,
2. The projector should provide as high a definition as possible. Ideally the projectorshould be capable of full HD, 1920 x 1080p HD for example (which gives a 16 x 9 aspect
ratio). Such a projector will require a DVI or HDMI cable
to connect to the laptop. DVI is recommended as there is no use for the audio connection in
the HDMI cable. Alternatively a VGA projector could be used, obviously with a VGA cable for
the laptop connection.
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A DVI cable.
3. The mirror should be placed in the direct center on the highest side of the domesupport, angled downwards at an angle of 20 degrees, and its base should be at the same
height at the base of the dome. The support for the mirror can be made out of wood, cut to
give a 20 degree angle, or other options can be used to provide some fine adjustment
should it be necessary or helpful. In the image below a second tier keyboard support (for amusic keyboard) has been cut and drilled to provide a mirror support that can both take a
variable size of mirror, and have the angle of the mirror finely adjusted.
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4. The projector needs to be placed pointing up at the mirror so that the image isreflected off the mirror to fill the dome, but not the dome support. For this a solid support
system is needed that will safely hold the projector at an angle of about 20 degrees, and
provide fine turning adjustment. One good solution to this is to use a solid music or
conductors stand (as shown in the image below). These can be found reasonably cheaply
(around $50) and are surprisingly sturdy. Find one that enables adjustment in both side to
side, and up and down directions, and is variable in height from around 24 to 40 inches.
It should also have lockable wheels - if it has wheels - in order for its position to be
reasonably secure after alignment.
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Primary projection.
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Even though a music stand is designed to hold just paper, a sturdy one can easily support and h
5. An alternative to the primary projection described in step 4, is to use a secondarymirror. Use of a secondary mirror has the advantage that the projector and support are no
longer near the center of the dome using up valuable spectator space. However the
downside to using a secondary mirror is that it involves additional cost (of the secondary
mirror itself, and some shelving), and complicates the alignment - the projector, secondary
mirror, and spherical mirror now all have to be aligned simultaneously and correctly.
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Secondary projection.
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To use the secondary mirror method of projection, first install a shelving system that enables a v
The shelf itself should be about 24 inches wide and 13 inches deep - though this does obviously
intend to use.
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Place the projector on the shelf so that the lens is centered - which is why the shelf should be 24
a projector.
The secondary mirror should be aligned at the top of the music stand. Heavy duty Velcro (or sim
The fine alignment of the three main elements (projector, secondary mirror, spherical mirror) w
angles of each to get a complete image projected onto the dome.
Note how close the secondary mirror is to the projector. Just enough room is needed so that the
and finds the spherical mirror.
This system frees up the center of the dome quite well.
High Quality MirrorsMost mirrors reflect light from two surfaces, the inside and outside faces of the glass or plastic.
Unfortunately this means that there will be two images in view on the dome for each single object in
the simulated sky - the intended image and a second fainter image slightly offset from the first. This
problem is doubled if a secondary mirror also with two reflective surfaces is used - in this case there
will now be four images on the dome, the intended one and three fainter ghost images. This problem
can be eliminated with the use of high quality first surface mirrors. These mirrors, both flat and
spherical, have only one reflective surface, so even when a secondary mirror is used no unwanted
ghost images appear on the dome. Of course the issue here is cost, first surface mirrors are a few
times more expensive than normal mirrors.
The use of first surface mirrors is recommended if your budget allows!
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See Also
WorldWide Telescope Planetarium
6. Run WorldWide Telescope
1. Connect a laptop computer to the projector, and if possible to the internet. Without aninternet connection you will be restricted to showing the tours and collections files that are
stored locally on the laptop, so in this case run all the tours you might need once (which
stores them locally) whilst connected to the internet, before removing the connection and
moving to the dome.
2. Run the WorldWide Telescope Windows Client on the laptop. The Web Client (basedon Silverlight) does not currently support the dome warping software, so make sure you
are using the downloaded Windows Client version, and that the version number (which can
be verified in the About WorldWide Telescopedialog) is 2.6.2.1 or later. It is
recommended that you use a Windows based laptop (Windows XP/Vista/7) for simplicity,
but you can use a Mac laptop with a Windows partition.
3. Select Full Dome from the View menu, then select Dome Setup to bring up thefollowing dialog:
For most modern projectors t
16:9, so set the Dome Type
16:9. If you are using an old
then the aspect ratio may we
this value to Mirrordome 4:
theConfiguration section of
Telescope User Guidefor det
projector is neither of these.
Set Dome Tilt to 70 percent
contains the center of interes
degrees.
For high resolution projectors
similar) select Large Textur
this unselected.
Click OK.
4. In the Full Dome menu ensure Full Dome has a tick beside it.5. If you wish to control the presentation by looking at the laptop, then you are good togo - the mouse movements and clicks on the laptop screen control the view. If you wish to
control the presentation by looking at the dome projection, then select Detach Main View
to Second Monitor. Consider using an XBox controller in this latter case, as input control
has now be passed to the dome view and controlling the presentation with a mouse can be
awkward.
6. Invite your students and peers!
http://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/WorldWideTelescopeUserGuide.htmlhttp://www.worldwidetelescope.org/docs/WorldWideTelescopeUserGuide.htmlhttp://www.worldwidetelescope.org/docs/WorldWideTelescopeUserGuide.htmlhttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuide -
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See Also WorldWide Telescope Planetarium
http://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuidehttp://www.worldwidetelescope.org/docs/worldwidetelescopeplanetarium.html#WorldWideTelescopeUserGuide